JP2016019728A5 - - Google Patents

Description

After two or more pedicle screws have been installed and cemented, and optionally, the respective carrier of the pedicle screws can be aligned with respect to each other by pulling or compressing the surgical area. Often it is necessary to maintain free access to the surgeon so that the surgeon can work without significant interference. Action point for operating the neck of the bone screw, the outer body or head, the inside of the body or head or bone screws Torx (TM) (hex socket), or a combination thereof. The operations acting on the body or the neck of the screw are not parallel. However, parallel traction / compression is usually desired. Translation is ensured only when the bone screw is directly and firmly connected to the parallel traction / compression device. Some systems allow the bone screw to be placed on the body by pressing directly against the insert and acting on the body, allowing parallel traction / compression without the use of connecting rods, clamping screws or set screws. The possibility to fix is offered. This process of operation is much more complex and is not suitable for rapid traction / compression.

The object on which the invention is based is also achieved by the shank according to the invention, which is particularly adapted for a medical screwdriver according to any one of the above aspects. In the region of its proximal end, such shank includes a connecting portion for removable handle member for applying a torque to the shank, at its distal end portion, in particular Torx (TM) or hexagonal A screwdriver including a socket shape is provided, which is adapted to be inserted into a suitable receiving part in the screw head of the pedicle screw, so that torque applied to the shank can be transmitted to the screw head. In the axial direction, the shank further includes a continuous internal passage, and a connection system, preferably a luer system, is provided at the proximal end of the shank to connect the cement filling machine to the internal passage.

In FIG. 1, a screwdriver system 1 including a shank 2 is shown, connected at one axial or proximal end (left side of FIG. 1) to a handle (not shown) and configured as a multi-faceted part. wherein the connecting portion 4, also in the axial or distal end of the other side (right side in FIG. 1), suitable for the transmission of torque, preferably Torx screwdriver (R) shape or a hexagonal socket shape as formed threaded section 6 including. A stop 8 that extends radially opposite the outer shell surface of the shank 2 is connected proximally of the screwdriver. A standard connection system, preferably the luer system 5, is coupled proximal to the polyhedral feature. Furthermore, a through-passage or axial lumen 3 passes through the shank 2 along its longitudinal axis.

The shank 2 passes through the handle portion 20, and the multi-surface shape portion 4 protrudes from the adapter sleeve 16, so that torque is applied to the shank 2 and, as a result, the screw connected to the Torx (registered trademark) shape portion of the engagement portion 6. The operating handle can be connected to the multi-face shaped part 4 so as to transmit.

In order to be able to grip and guide the screwdriver system 1, a rotationally symmetric ergonomically shaped rotating sleeve or outer sleeve 26 is pressed coaxially against the adapter sleeve 16. The outer sleeve 26 abuts the clamping sleeve 10 distally and abuts the adapter sleeve 16 proximally by its respective end face. More precisely, it surrounds the first engagement part 14 and abuts the annular end face 15 of the clamping sleeve 10 by its distal end face. The opposite front surface of the outer sleeve 26 constitutes an axial / proximal stop where the adapter sleeve 16 is adjacent by its handle portion 20. The rotating sleeve 26 is rotatable relative to the adapter sleeve and can hold the screw driver system 1 while the adapter sleeve 16 or the shank 2 rotates. After removing the adapter sleeve 16, the rotating sleeve 26 can likewise be pulled out of the shank 2 in the proximal direction and removed, and each can be pushed against the shank 2 before being pushed over the adapter sleeve .

FIG. 2A shows an isometric view of the screwdriver system 1, showing the multi-face shaped part 4 and the push button 24 integrated in the handle part 20. Further, the above-described concave portion or concave holding portion 25 is provided on the handle portion 20 in order to obtain better operability. At the opposite axial end of the shank 2, a Torx (R) shaped part 6 is provided, to which a stop 8 is connected proximally. On two radially opposite surfaces, the stop 8 includes a portion 13 having a region that is flattened to the peripheral outer shell surface of the shank 2, where the curved outer contour is an outer diameter smaller than the outer diameter of the male screw 12. Form the diameter. In an ideal case, the outer diameter of the flattened region 13 is the maximum and is the same size as the diameter of the core of the screw portion 12. This is because the male screw 12 of the clamping sleeve 10 projects radially from the clamping sleeve 10 at least in the flattening region 13 of the stop 8 so that it can be screwed into the female screw 38 of the head 36 (see FIG. 3). Has an effect. Furthermore, the curved outer contour of the flattened region 13 is associated with its complementary shape so that a connection between the shank 2 and the pedicle screw 30 is established in the inner wall of the head 36 with little play. Match. Further, in this way, a radial lock is realized between the shank 2 and the head 36.

FIG. 3 shows a partially cutaway side view of the screwdriver system 1 attached to the polyaxial pedicle screw 30. The pedicle screw 30 comprises a bone screw 32, which is a spherical screw head 34, preferably rotated by the axial / distal end of the head 36 and an insert 40 attached to the screw head 34. Accomodated as possible. When the external thread 12 of the clamping sleeve 10 is screwed into the female screw 38 provided in the proximal end of the head 36, Torx (R) profile portion 6 is provided for this purpose, the screw head 34 Torx ( (Registered trademark) inserted into the corresponding engaging portion configured as a shape portion. The Torx (registered trademark) shaped portion 6 is guided into the insertion portion 40 by an axial through hole.

FIG. 5B shows a parallel traction / compression device 44 (hereinafter “traction device”) connected to the two screwdriver systems of FIG. 5A, which is suitable for both parallel traction and compression. Yes. The traction device 44 includes, at its free end, two arm portions 48a and 48b that surround the clamping sleeve 10 via respective connecting portions or gripping portions 50a and 50b in the region between the chamfered portion 9 and the male screw 12. Including. The opposite end of one arm portion 48a is connected to the first force transmission element 52a of the traction device 44 via a connecting portion 49a, and the opposite end portion of the other arm portion 48b is connected to another connecting portion. It is connected to the second force transmission element 52b via 49b. Connected to the first force transmission element 52a are two guide rails 54 and 56 extending substantially in parallel, one axial end of which is substantially parallel to the force transmission element 52a. Connected to. The second force transmission element 52 b is pressed against the two rails 54 and 56 via the free ends in the axial direction of the guide rails 54 and 56. In this way, the force transmission elements 52a, 52b are movable in translation relative to each other. Along the direction of translation, a force application element 58 is interconnected between the two force transmission elements 52a, 52b. When the surgeon mechanically or electrically (not shown) shortens or extends the force application element 58 over an effective length, a force is applied to the two force transmission elements 52a, 52b and their relative distances. Changes. This force is transmitted to the arm portions 48a and 48b via the connecting portions 49a and 49b. Since the arm part engages with the clamping sleeve 10, this force is transmitted to the clamping sleeve 10 and consequently to the bone at the point of action of the gripping part 50.

The screwdriver 6 is inserted into the pedicle screw 30 so that the stop 8 is sandwiched between the two sides of the head 36 and thus the adapter sleeve 16 is sandwiched and the clamping sleeve 10 is rotated through the adapter sleeve 16. insert receiving portion for proper screwdriver in the screw head 34 into (eg Torx (R) or hexagon socket), the external thread portion 12 at the distal end of the clamping sleeve 10, vertebral The pedicle screw 30 is screwed into a female screw 38 corresponding to that of the head 36. The axial freedom of the clamping sleeve 10 is limited by a stop 8 provided at the distal end of the shank when screwed into the head 36, and the distal end of the screwdriver 6 is connected to the screw head 34. The head 36 is further moved from the screw head 34 by being pressed against the bottom of the formed screw driver receiving portion and further screwing the clamping sleeve 10 into the head 36. Finally, the head 36 and the screw head 34 are finally moved. The clamping sleeve 10 and the head 36, and the screw driver 6 and the screw head 34 are fixed to each other without play.

After placement of the pedicle screw and cement reinforcement, traction or compression is often performed for position adjustment, if appropriate. The screwdriver 1 according to the invention is designed so that it establishes a rigid connection with the bone screw and the shank 2 provides a contact surface with any kind of traction / compression device. In order to be able to act directly on the shank 2 by means of a traction device / compression device, the adapter sleeve 16 and the outer sleeve 26 can be removed from the shank 2 with the screw driver 1 and the pedicle screw 30 fixed. The adapter sleeve 16 and the clamping sleeve 10 are not securely connected to each other and not particularly axially connected, but simply engage via the crown shapes 14 and 18. Therefore, the adapter sleeve can be removed axially from the clamping sleeve and the shank 2 after unlocking the axial direction via the locking device, while the clamping sleeve 10 is self-locking. Holds the state of being energized.

Torx ® shaped portion at the distal end of the shank, as a modification of the shank in the figures may be a hexagonal socket shape, slot-shaped or cross-head shape.

The present invention serves as a cement injection cannula for introducing single and polyaxial pedicle screws and at the same time, and can easily connect almost any design of traction and compression devices, The screwdriver which also fulfills the function as is disclosed. The screw driver includes an intermediate sleeve composed of an adapter sleeve and a clamping sleeve as well as a continuous shank of a single part having a through hole on the inside. This allows the screwdriver to remain connected to the pedicle screw throughout the bone screw installation procedure. In addition, all elements such as the adapter sleeve and outer sleeve can be disconnected at any time to improve the field of view and x-ray quality. Furthermore, the shank that functions as a cement reinforcement sleeve in the fixed state can be used to perform cement reinforcement, after which the traction device and the compression device are fixed for the purpose of operation, especially in the case of parallel operation. Can be connected to the shank. In this way, forces and moments can be transmitted without changing the instrument and without losing time. For this purpose, a specific connection structure can be provided in the shank, preferably in its distal region, in a peripheral groove or other shape.
The following items are elements described in the scope of claims of the present application.
(Item 1)
A medical screwdriver (1) for introducing a monoaxial or polyaxial pedicle screw (30) into a vertebral body (42) comprising:
A shank (2) comprising a connection (4) for a removable handle member for applying torque to said shank (2) in the region of its proximal end, its distal end Are provided with screwdrivers (6), which in particular have a Torx or hexagon socket shape and are inserted into corresponding receiving parts at the screw head (34) of the pedicle screw (30). A shank (2) adapted to be transmitted and capable of transmitting torque applied to the shank (2) to the screw head (34);
A sleeve (10, 16) relatively rotatable around the shank (2), the distal end of which is properly formed on the head (36) of the pedicle screw (30) A connection part (38), in particular a connection part (12) for connection to an internal thread part, in particular a sleeve (10, 16) comprising an external thread part;
With
A first sleeve portion (10) disposed distally, said sleeve (10, 16) having a multi-part, in particular two-part design and including a first engagement portion (14); A second sleeve portion (16) disposed proximally and including a complementary second engagement portion (18);
The first engagement portion (14) and the second engagement portion (18) engage with each other, and the connection portion (12) provided in the first sleeve portion (10) and the The second sleeve part (16) can transmit torque to the first sleeve part (10) so that the head is connected, and the second sleeve part (16) can be transmitted without using any tools. The shank can be axially removed from the first sleeve portion (10) and the first sleeve portion (10) can be released from the head (36) of the pedicle screw (30). A medical screwdriver (1), characterized in that it can be pulled away from (2) in the proximal direction.
(Item 2)
The first engagement portion (14) and the second engagement portion (18) engage in the axial direction and simply constitute a configuration constraint in the circumferential direction for torque transmission. 2. The medical screwdriver (1) according to item 1, characterized in that it has a shape.
(Item 3)
The two shanks (2) include two shanks that can be combined and mounted, and the first sleeve (10) is mounted in a state where it is mounted, particularly in a state where it cannot move in the axial direction. 3. The medical screwdriver (1) according to item 1 or 2, wherein the medical screwdriver (1) is sandwiched between the shank portions.
(Item 4)
The first sleeve portion (10) is supported axially movable on the shank (2) for at least a predetermined length, the shank being the head (36) of the pedicle screw (30). Of the screwdriver (6) in the distal direction so that the first sleeve part (10) can transmit axial force in the distal direction to the shank (2) when connected to Any one of items 1 to 3, characterized in that a stop (8) provided on the shank (2) at the front limits the axial freedom of the first sleeve part (10). The medical screwdriver (1) according to item.
(Item 5)
An outer sleeve (26) rotatable relative to the sleeve is removed from the first sleeve portion (10) and / or the second sleeve portion (16) for gripping the screwdriver (1). 5. The medical screwdriver (1) according to any one of items 1 to 4, characterized in that it can be mounted, in particular pressed against.
(Item 6)
The outer contour of the sleeve portion (10) and the second sleeve portion (16) is such that the outer sleeve (26), which is rotatable relative thereto, is sandwiched between the two sleeve portions (10, 16) in the axial direction. 6. The medical screwdriver (1) according to item 5, characterized in that the medical screwdriver (1) is configured.
(Item 7)
The shank (2) has an internal passage (3) continuous in the axial direction;
At the proximal end of the shank (2), a connection system (5), preferably a luer system, is provided for connecting a cement filling machine to the passage (3), items 1 to The medical screwdriver (1) according to any one of claims 6 to 6.
(Item 8)
The second sleeve part (16) can be removably locked to the shank (2) for axial fixation, in particular diametrically biased and the second sleeve part (16). The lock bar (24) provided in the item automatically engages with the peripheral groove (22) formed in the shank to form an axial configuration constraint that can be removed by hand. The medical screwdriver (1) according to any one of 1 to 7.
(Item 9)
A rotation lock means, in particular a shut-off valve, is provided at a rotational position where the second sleeve portion (16) is rotatable with respect to the shank (2), and the second sleeve portion (16) is located on the shank (2) The medical screwdriver (1) according to any one of items 1 to 8, wherein the medical screwdriver (1) is provided between a locked position and a non-rotatable lock position.
(Item 10)
A shank used for the medical screwdriver (1) according to any one of items 1 to 9,
In the region of its proximal end, it includes a connection (4) for a removable handle member for applying torque to the shank (2), at its distal end at the screwdriver (6 ) And the screwdriver (6) is specially provided with a Torx or hexagon socket shape and adapted to be inserted into a corresponding receiving part at the screw head (34) of the pedicle screw (30) The torque applied to the shank (2) can be transmitted to the screw head (34),
Said shank (2) comprises an axially continuous internal passage (3);
Shank, characterized in that a connection system (5), preferably a luer system, is provided at the proximal end of the shank (2) to connect a cement filling machine to the passage (3). .
(Item 11)
A method for introducing a monoaxial or polyaxial pedicle screw (30) into a vertebral body (42) using the medical screwdriver (1) according to any one of items 1-9,
Inserting the screwdriver (6) into a corresponding receptacle in the screw head (34) of the pedicle screw (30);
By rotating the second sleeve portion (16), the first sleeve portion (10) is connected and fixed to the head (36) of the pedicle screw (30), and the screwdriver is rotated. Connecting and fixing the part (6) to the screw head (34);
Including
While holding the first sleeve portion (10) and the head (36) fixed, and the screw driver (6) and the screw head (6) fixed, the second sleeve portion ( 16) The method comprising the step of removing in a proximal direction from said shank (2).
(Item 12)
The shank (2) of the medical screwdriver (1) includes an axially continuous inner passage (3), and at the proximal end of the shank (2), a cement filling machine is connected to the passage (3). In order to connect to a connection system (5), preferably a lure system is provided,
Coupling a cement filling machine to the connection system (5);
Injecting cement into the pedicle screw (30) via the passage (3).
(Item 13)
Placing a traction device or compression device on the shank (2) or the first sleeve portion (10) of two or more screwdrivers (1) connected to two or more pedicle screws (30);
Performing traction or compression, in particular parallel traction or compression;
The method according to item 11 or 12, further comprising:

2 Shank 3 Internal passage 4 Multi-faceted part 5 Luer system 6 Screwdriver (Torx (registered trademark) shape engaging part)
8 Stopper 9 Chamfered portion 10 Clamping sleeve 11 Chamfered portion 12 Male thread 13 Flattened region 14 First engaging portion 16 Adapter sleeve 18 Second engaging portion 19 Sleeve portion 20 Grip portion 21 Joint 22 Peripheral groove 24 Push button 25 Recess 26 Outer sleeve 30 Pedicle screw 32 Bone screw 34 Screw head 36 Head 38 Female screw 40 Insertion part 42 Vertebral 44 Parallel traction / compression device 48a, 48b Arm part 49a, 49b Connection part 50a, 50b Connection part or grip Part 52a First force transmission element 52b Second force transmission element 54 First guide rail 56 Second guide rail 58 Force addition element

Claims (13)

A medical screwdriver (1) for introducing a monoaxial or polyaxial pedicle screw (30) into a vertebral body (42) comprising:
A shank (2) comprising a connection (4) for a removable handle member for applying torque to said shank (2) in the region of its proximal end, its distal end the screwdriver unit (6) is provided, screwdriver unit (6) in particular comprises a Torx (TM) or hex socket shape, corresponding with the screw head (34) of the pedicle screw (30) A shank (2) adapted to be inserted into a receptacle and capable of transmitting torque applied to the shank (2) to the screw head (34);
A sleeve (10, 16) relatively rotatable around the shank (2), the distal end of which is properly formed on the head (36) of the pedicle screw (30) A connection part (38), in particular a connection part (12) for connection to an internal thread part, in particular a sleeve (10, 16) comprising an external thread part;
With
A first sleeve portion (10) disposed distally, said sleeve (10, 16) having a multi-part, in particular two-part design and including a first engagement portion (14); A second sleeve portion (16) disposed proximally and including a complementary second engagement portion (18);
The first engagement portion (14) and the second engagement portion (18) engage with each other, and the connection portion (12) provided in the first sleeve portion (10) and the The second sleeve part (16) can transmit torque to the first sleeve part (10) so that the head is connected, and the second sleeve part (16) can be transmitted without using any tools. The shank can be axially removed from the first sleeve portion (10) and the first sleeve portion (10) can be released from the head (36) of the pedicle screw (30). A medical screwdriver (1), characterized in that it can be pulled away from (2) in the proximal direction.   The first engagement portion (14) and the second engagement portion (18) engage in the axial direction and simply constitute a configuration constraint in the circumferential direction for torque transmission. The medical screwdriver (1) according to claim 1, characterized in that it has a shape.   The two shanks (2) include two shanks that can be combined and mounted, and the first sleeve (10) is mounted in a state where it is mounted, particularly in a state where it cannot move in the axial direction. The medical screwdriver (1) according to claim 1 or 2, characterized in that the medical screwdriver (1) is sandwiched between the shank portions. The first sleeve portion (10) is supported axially movable on the shank (2) for at least a predetermined length, the shank being the head (36) of the pedicle screw (30). when coupled to the as first sleeve portion (10) can be transmitted to the shank (2) an axial force in a distal direction, the proximal of the screwdriver unit (6) The stop (8) provided on the shank (2) limits the degree of freedom in the axial direction of the first sleeve part (10). The medical screwdriver as described (1).   An outer sleeve (26) rotatable relative to the sleeve is removed from the first sleeve portion (10) and / or the second sleeve portion (16) for gripping the screwdriver (1). Medical screwdriver (1) according to any one of the preceding claims, characterized in that it can be mounted, in particular pressed against. The outer contour of the first sleeve part (10) and the second sleeve part (16) is such that the outer sleeve (26), which is rotatable relative thereto, is pivoted between the two sleeve parts (10, 16). The medical screwdriver (1) according to claim 5, characterized in that it is configured to be sandwiched in a direction. The shank (2) has an internal passage (3) continuous in the axial direction;
A connection system (5), preferably a luer system, is provided at the proximal end of the shank (2) for connecting a cement filling machine to the passage (3). The medical screwdriver (1) as described in any one of -6.   The second sleeve part (16) can be removably locked to the shank (2) for axial fixation, in particular diametrically biased and the second sleeve part (16). A locking bar (24) provided on the shank automatically engages a peripheral groove (22) formed in the shank to form an axial form constraint that can be removed by hand. Item 8. The medical screwdriver (1) according to any one of Items 1 to 7.   A rotation lock means, in particular a shut-off valve, is provided at a rotational position where the second sleeve portion (16) is rotatable with respect to the shank (2), and the second sleeve portion (16) is attached to the shank (2). The medical screwdriver (1) according to any one of claims 1 to 8, characterized in that the medical screwdriver (1) is provided between the locking position and the non-rotatable locking position. A shank used for the medical screwdriver (1) according to any one of claims 1 to 9,
In the region of its proximal end, it includes a connection (4) for a removable handle member for applying torque to the shank (2), at its distal end at the screwdriver (6 ), And the screwdriver (6) is provided with a Torx (registered trademark) or hexagon socket shape in particular and is inserted into a corresponding receiving part at the screw head (34) of the pedicle screw (30). Adapted to transmit torque applied to the shank (2) to the screw head (34);
Said shank (2) comprises an axially continuous internal passage (3);
Shank, characterized in that a connection system (5), preferably a luer system, is provided at the proximal end of the shank (2) to connect a cement filling machine to the passage (3). . A method for introducing a monoaxial or polyaxial pedicle screw (30) into a vertebral body (42) using the medical screwdriver (1) according to any one of claims 1-9,
Inserting the screwdriver (6) into a corresponding receptacle in the screw head (34) of the pedicle screw (30);
By rotating the second sleeve portion (16), the first sleeve portion (10) is connected and fixed to the head (36) of the pedicle screw (30), and the screwdriver is rotated. Connecting and fixing the part (6) to the screw head (34);
Including
While holding the first sleeve portion (10) and the head (36) fixed, and the screw driver (6) and the screw head ( 34 ) fixed, the second sleeve portion ( 16) The method comprising the step of removing in a proximal direction from said shank (2). The shank (2) of the medical screwdriver (1) includes an axially continuous inner passage (3), and at the proximal end of the shank (2), a cement filling machine is connected to the passage (3). In order to connect to a connection system (5), preferably a lure system is provided,
Coupling a cement filling machine to the connection system (5);
The method according to claim 11, further comprising the step of injecting cement into the pedicle screw (30) via the passage (3). Placing a traction device or compression device on the shank (2) or the first sleeve portion (10) of two or more screwdrivers (1) connected to two or more pedicle screws (30);
Performing traction or compression, in particular parallel traction or compression;
The method according to claim 11, further comprising: